Hybrid Distribution Trucks: Costs and Benefits 6

Hybrid Distribution Trucks: Costs and Benefits 6

Technical Report Documentation Page 1. Report No. 2. Government Accession No. 3. Recipient's Catalog No. SWUTC/11/476660-00080-1 4. Title and Subtitle 5. Report Date June 2011 Hybrid Distribution Trucks: Costs and Benefits 6. Performing Organization Code 7. Author(s) 8. Performing Organization Report No. Garrett Anderson and Rob Harrison Report 476660-00080-1 9. Performing Organization Name and Address 10. Work Unit No. (TRAIS) Center for Transportation Research University of Texas at Austin 11. Contract or Grant No. 1616 Guadalupe Street DTRS99-G-0006 Austin, TX 78701 12. Sponsoring Agency Name and Address 13. Type of Report and Period Covered Southwest Region University Transportation Center September 2010-June 2011 Texas Transportation Institute Texas A&M University System 14. Sponsoring Agency Code College Station, Texas 77843-3135 15. Supplementary Notes Supported by a grant from the U.S. Department of Transportation, University Transportation Centers Program. 16. Abstract The respective populations of the United States and Texas are expected to significantly increase over to the next several decades, primarily in urban and metropolitan areas. Economists have also predicted that oil prices will rise in real terms during the same period. Air quality is getting worse in a number of metropolitan areas, triggering non-attainment penalties and spurring an interest in cleaner transportation. Incentives and new policies must be adopted to increase the efficiency of the transportation system and thus move freight with a reduced impact on society and the environment. Hybrids can potentially help solve this issue through their increased fuel economy and reduced emissions. This project evaluated a package delivery truck, beverage delivery truck, and a refuse truck. The research determined that the additional cost (with current prices) of the hybrid refuse truck was justified, but not for the other two trucks. The social cost of emissions was also estimated to help justify hybrids’ implementation. With this information, the rate of hybrid truck adoption was estimated for various policy scenarios. The results indicated that a correctly designed incentive program can greatly increase the rate of hybrid adoption and could be justified by the additional social benefits of emissions reduction. 17. Key Words 18. Distribution Statement Hybrid, Distribution, Costs, Benefits, Demand, No restrictions. This document is available to the Fuel Consumption, Freight, Air Quality, public through NTIS: Emissions, Texas National Technical Information Service 5285 Port Royal Road Springfield, Virginia 22161 19. Security Classif. (of this report) 20. Security Classif. (of this page) 21. No. of Pages 22. Price Unclassified Unclassified 119 Form DOT F 1700.7 (8-72) Reproduction of completed page authorized 2 Hybrid Distribution Trucks: Costs and Benefits By Garrett Anderson Robert Harrison Research Report 476660-00080-1 Southwest Region University Transportation Center Center for Transportation Research University of Texas at Austin Austin, Texas 78701 June 2011 3 4 Abstract The respective populations of the United States and Texas are expected to significantly increase over to the next several decades, primarily in urban and metropolitan areas. Economists have also predicted that oil prices will rise in real terms during the same period. Air quality is getting worse in a number of metropolitan areas, triggering non-attainment penalties and spurring an interest in cleaner transportation. Incentives and new policies must be adopted to increase the efficiency of the transportation system and thus move freight with a reduced impact on society and the environment. Hybrids can potentially help solve this issue through their increased fuel economy and reduced emissions. This project evaluated a package delivery truck, beverage delivery truck, and a refuse truck. The research determined that the additional cost (with current prices) of the hybrid refuse truck was justified, but not for the other two trucks. The social cost of emissions was also estimated to help justify hybrids’ implementation. With this information, the rate of hybrid truck adoption was estimated for various policy scenarios. The results indicated that a correctly designed incentive program can greatly increase the rate of hybrid adoption and could be justified by the additional social benefits of emissions reduction. v Disclaimer The contents of this report reflect the views of the authors, who are responsible for the facts and the accuracy of the information presented herein. This document is disseminated under the sponsorship of the Department of Transportation, University Transportation Centers Program in the interest of information exchange. The U.S. Government assumes no liability for the contents or use thereof. An important concept to understand for this report is the difference between fuel economy and fuel consumption. Fuel economy is typically specified in miles/gallon while fuel consumption is specified in gallons/mile. Therefore a 25% increase in fuel economy does not equal a 25% percent reduction in fuel consumption. The relationship between the two quantities can be seen in the equation as well as a reference between the two in the accompanying table. Reference between increase and fuel economy and reduction in fuel consumption. Percent Increase In Fuel Percent Reduction in Fuel Economy Economy 10% 9% 15% 13% 20% 17% 25% 20% 30% 23% 35% 26% 40% 29% 45% 31% 50% 33% vi Acknowledgment This research was supported by a grant from the U.S. Department of Transportation’s University Transportation Centers Program to the Southwest Region University Transportation Center. The authors appreciate the careful and constructive editing of Maureen Kelly, CTR Editor. vii viii Executive Summary The U.S. population is expected to grow by 85.6 to 106.9 million people by the year 2040 from the current population of 308.7 million (U.S. Census Bureau), and the Texas population is predicted to grow by 14.9 million people from the current population of 25.1 million (Texas State Data Center), as Figure 1 depicts. This additional population will create a larger demand for freight to bring in the goods that people require and also to dispose of their increased refuse. The population growth should also create an increase in jobs, which will most likely cause an increase in raw materials, equipment, produced goods, and services, all of which will require transportation. Source: Butler et al. Figure 1. Comparison of actual and estimated population growth of the state of Texas and the “Texas Triangle” megaregion. A large percentage of the additional growth in Texas is predicted to occur in what is known as the “Texas Triangle” megaregion. A megaregion is made up of two or more metropolitan areas that are linked through multimodal transportation infrastructures, environmental systems, and complementary economies. Megaregions have the benefit of concentrating people, jobs, and capital, which makes them attractive in a global economy (Butler et al.). Clearly the growing freight demand in Texas will require a more efficient transportation system at many levels. Creating a more efficient system will require many solutions, and hybrid trucks offer the potential to fill a niche where specific types of freight movement exist. Their adoption could potentially reduce emissions as well as fuel consumption. The objectives of this study were to identify current users of hybrids. This study utilizes the available information to estimate the operating costs of hybrids in these applications and determine the potential social benefits in order to determine a total cost model. This report seeks to estimate the true cost of truck operations by using the social cost of vehicle emissions estimated by the Environmental Protection Agency (EPA). With this data, the rate of adoption of these hybrid trucks will be estimated for various policy scenarios. ix Coca-Cola, UPS, FedEx, and Waste Management are examples of companies that are either using hybrid trucks or evaluating them. The common thread between all of these companies is that they all operate in urban environments, and their trucks make frequent stops during the course of a day to either pick up or deliver materials. Many manufacturers like Peterbilt, Kenworth, Freightliner, and International now build hybrid trucks or chassis that are commercially available. Three truck applications were selected based on current usage of hybrids and vehicle type. The three applications selected were a package delivery step van, a beverage delivery tractor trailer, and a refuse truck. All three of these applications have seen some usage of hybrids, and they all have drive cycles that lend themselves to hybrid drivetrains. The package delivery truck considered was a step van assumed to cost $115,000 ($75,000 base cost with an additional $40,000 hybrid system). The operating cost was evaluated under two conditions. The first was meant to simulate an urban environment with the truck traveling 17,000 miles/year with a fuel economy of 8 mpg. The second was meant to approximate a more suburban route with an annual mileage of 21,000 miles/year with a fuel economy of 11.2 mpg. The system did not appear to pay for itself when maintenance, depreciation, fuel, and interest costs were considered. The fuel cost was assumed to vary between $3.50 and $6.50 per gallon. With a cost of $6.50 per gallon, the urban system cost an additional $65,000 to operate over a period of 10 years. The truck on the suburban route was estimated to cost an additional $69,000 to operate over the same period. The beverage delivery truck was assumed to cost $140,000 ($100,000 base cost with an additional $40,000 hybrid electric system). Only one condition was evaluated for this particular application. The annual mileage was assumed to be about 40,000 miles/year with a fuel economy of 4.7 mpg. This analysis greatly resembled the package delivery truck’s because they both utilize very similar systems manufactured by Eaton. Unlike the package delivery truck, this application appears to pay for itself with a fuel cost between $4.50 and $5.00 per gallon, due to the increased utilization and higher fuel consumption.

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